In medical imaging and biometrics,
vibraimage is a recent, psycholgically-based, emotional-recognition visual imaging technology that measures
microsecond vibrations of video pixels in terms of digital frequency
and amplitude parameters. The visualization of a 3-dimensial object,
based on vibration parameters, can thus be correlated to various
mental states, such as anger, tension, aggression, etc., as well
as mood, normal states, and subconscious reflections. Vibraimage can
be characterized as one of primary images
as visible spectrum,
such as infrared, x-ray, MRI or ultrasound imaging.
Vibraimage technology is currently being tested in areas such as terrorist
recognition, emotional recognition, interpersonal video-dating interactions, as well as for personal use.
Visualization of every pixels vibration became possible only in 21st century with the development of digital cameras and
high power computers. Long ago, past scientists, such as Aristotle, had realized
that biological object movement parameters characterize emotions; thus vibraimage technology is a potential realization
of this goal.

History

Etymologically, the word emotion is a composite formed from two Latin words. e(x)/out, outward + motio/movement, action, gesture. Vibraimage is novel technical realization of great past scientist ideas begins from Aristotle, who firstly stand the link between motion and life.
The basic technology behind vibra imaging was developed in 1998 by the Russian ELSYS Corporation. The first vibraimage pictures were received in 1996 and the «image processing method» later called vibraimage was patented in 2000 (RU and US).

Vibraimage of biological objects

The greatest scientist and naturalist Charles Darwin stated the link
between emotions and movements in the book The Expression of the Emotions in Man and Animals.
Later, the famous zoologist and psychologist Konrad Lorenz supposed the
functional link between aggression and frequency of movement or vibrations in animals and humans.[2]
Vibraimage calculates self-dependent vibration parameters of biological objects by digital camera and computer
and transfer movement energy into emotions determination. Human's vibraimage is informative as psychological imaging
like x-ray is medical imaging.

A way to measure a portion of these energy dynamics, according to Gladyshev,
is to gauge values of supramolecular receptors, e.g. sight, sound, touch, etc.,
of living systems as they interact.[3] Vibraimage, has recently been used in this direction.
If two people, for example, are interacting on a video feed, the pair
can be considered a closed system;
as such, mapping changes in vibration parameters as these correlate to emotional changes,
can thus be mathematically correlated to an equation of state
for the system in terms free energy changes in relation to each person?s reactions.

The human organism, as per Freud's conception, can be approximated as a thermodynamic system.[4]
Accordingly, internal and external stimuli function as energy releasers. As such, the human head, in balance, yields an approximation of
the state of the system, whereby head movements, regulated by vestibular system, are coordinated with energy regulation processes
as described by hierarchical thermodynamics (1978) and human thermodynamics (2002). In this manner, vibration imaging, as shown below,
via frequency and amplitude measurements, theoretically functions as an approximate gauge of this state:

Likewise, since 1972, psychologist John Gottman, who also used Ekmans principles, has used a similar type of video-imaging technology, based on micro-second video recordings of married couples, conjoined with EEG and pulse rate measurements, which he uses to measure the health or pulse of rocky marriages.[5] To date, his famous «love lab» has tracked the marriages of some 700 couples.

Georgi Gladyshev Hierarchical thermodynamics  General Theory of Existence and Living World Development,
Report dedicated to 70th Birthday of Professor Gladyshev, 19 Sept. 2006, Alma-Ata (Kazakhstan, were he was born), National Technical University and National University of Kazakhstan (in Russian, Abstract in English)